A Possible Pterobranch Hemichordate from the Early Cambrian of South China

A Possible Pterobranch Hemichordate from the Early Cambrian of South China

Journal of Paleontology, 92(1), 2018, p. 26–32 Copyright © 2017, The Paleontological Society 0022-3360/18/0088-0906 doi: 10.1017/jpa.2017.134 Malongitubus: a possible pterobranch hemichordate from the early Cambrian of South China Shixue Hu,1 Bernd-D. Erdtmann,2 Michael Steiner,3 Yuandong Zhang,4 Fangchen Zhao,4 Zhiliang Zhang,5 and Jian Han5 1Chengdu Center, China Geological Survey, Chengdu, 610081, P.R. China 〈[email protected]〉 2Institut für Angewandte Geowissenschaften, Technische Universität Berlin, D-13355 Berlin, Germany 〈[email protected]〉 3Institut für Geowissenschaften, Freie Universität Berlin, D 12249, Berlin, Germany 〈[email protected]〉 4CAS Key Laboratory of Economic Stratigraphy and Palaeogeography, Nanjing Institute of Geology and Palaeontology, 39 East Beijing Road, Nanjing 210008, China 〈[email protected]〉, 〈[email protected]〉 5Early Life Institute, State Key Laboratory of Continental Dynamics, Northwest University, Xi’an 710069, China 〈[email protected]〉, 〈[email protected]〉 Abstract.—Malongitubus kuangshanensis Hu, 2005 from the early Cambrian Chengjiang Lagerstätte of China is redescribed as a pterobranch and provides the best evidence to demonstrate that hemichordates were present as early as Cambrian Stage 3. Interpretation of this taxon as a hemichordate is based on the morphology of the branched colony and the presence of resistant inner threads consistent with the remains of an internal stolon system. The presence of fusellar rings in the colonial tubes cannot be unambiguously proven for Malongitubus, probably due to early decay and later diagenetic replacement of the thin organic material of the tubarium, although weak annulations are still discernible in parts of the tubes. The description of M. kuangshanensis is revised according to new observations of previously reported specimens and recently collected additional new material. Malongitubus appears similar in most features to Dalyia racemata Walcott, 1919 from the Cambrian Stage 5 Burgess Shale, but can be distinguished by the existence of disc-like thickenings at the bases of tubarium branching points in the latter species. Both species occur in rare mass-occurrence layers with preserved fragmentary individuals of different decay stages, with stolon remains preserved as the most durable structures. Benthic pterobranchs may have occurred in some early Cambrian shallow marine communities in dense accumulations and provided firm substrates and shelter for other benthic metazoans as secondary tierers. Introduction Kirjanov, 1968 representing tubaria with zigzag-shaped fusellar collars from the basal Cambrian Rovno Formation of Ukraine The Pterobranchia are a group of colonial or pseudocolonial (Sokolov, 1997, pl. 8.4). Other remains have been reported from hemichordates with a long evolutionary history ranging from Cambrian Stage 5 (Series 3), including the potential colonial the Cambrian to the present day. Extant pterobranchs are pterobranch Yuknessia simplex Walcott, 1919 (LoDuca benthic and classified into two major orders: the Cephalodiscida et al., 2015a) and the tubicolous enteropneust hemichordates and the Rhabdopleurida. A close relationship between rhabdo- Spartobranchus tenuis Caron, Conway Morris, and Cameron, pleurid pterobranchs and graptolites was suggested by some 2013 and Oesia disjuncta Walcott, 1911 (Caron et al., 2013; previous studies (Urbanek, 1986, 1994; Urbanek and Dilly, Nanglu et al., 2016) from the Burgess Shale, and undescribed 2000; Mierzejewski and Kulicki, 2003) and confirmed by a fragments from the Kaili Formation in Southwest China cladistic investigation (Mitchell et al., 2013), which indicated (Harvey et al., 2012). Frond-like fossil remains with a pair of that the extinct Graptolithina should be included in the tentacles from the Chengjiang Lagerstätte were described as Pterobranchia. On the basis of scanning electron microscope Galeaplumosus abilus Hou et al., 2011 and interpreted as a back-scatter electron (SEM-BSE) analyses (Maletz et al., 2005), possible hemichordate zooid (Hou et al., 2011). The assignment some fossils previously presumed to represent Cambrian algae of the sole known specimen to the hemichordates, however, was have been reinterpreted as pterobranchs (Maletz et al., 2005; questioned by recent studies (LoDuca et al., 2015a; Maletz and Maletz, 2014; LoDuca et al., 2015a, 2015b; Maletz and Steiner, Steiner, 2015; Ou et al., 2017). Another potential rhabdopleurid 2015), greatly improving our knowledge of the early fossil pterobranch from the Niutitang Formation of China (Cambrian record of the Pterobranchia. However, the age of the oldest Stage 2; Zhao et al., 1999) requires further study, and its pterobranchs and even of the Hemichordata is still not settled. pterobranch affinity remains uncertain (Maletz, 2014; LoDuca The earliest potential candidate for hemichordate fossils so far et al., 2015a; Maletz and Steiner, 2015). The earliest widely known is acid-isolated organic fragments of Sokoloviina costata accepted occurrences of pterobranchs are from the basal part of 26 Downloaded from https://www.cambridge.org/core. TU Berlin Universitaetsbibliothek, on 04 Jul 2019 at 14:13:27, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/jpa.2017.134 Hu et al.—A possible early Cambrian pterobranch hemichordate 27 Stage 5 of the Cambrian Period (Maletz, 2014; LoDuca et al., Systematic paleontology 2015a; Maletz and Steiner, 2015). In this study, we reinterpret Malongitubus kuangshanensis Hu, 2005 from the early ? Phylum Hemichordata Bateson, 1885 Cambrian Chengjiang Konservat-Lagerstätte (Series 2, Stage 3) ? Class Pterobranchia Lankester, 1877 as a possible pterobranch, judging mostly from the identification ? Subclass Graptolithina Bronn, 1849, emend. Mitchell et al., 2013 of a resistant internal stolon system. Genus Malongitubus Hu, 2005 Type species.—Malongitubus kuangshanensis Hu, 2005. Geological setting, materials, and methods Diagnosis (emended).—Colonial organism with long, slender, All material is from a single bedding plane in a small quarry on and branching thecal tubes. Thecal tubes parallel-sided, each with the northwest slope of a hillside near Kuangshan village, an internal continuous thread. There are usually four, or less ~10 km southwest of the county town Malong, 100 km east commonly five, terminal thecal tubes, which are free and in similar of Kunming in Yunnan Province, China (25°20'15''N, widths and lengths. Fine annulations present on the surface of 103°30'20''E). Stratigraphically, this interval belongs to the thecal tubes. Terminal thecal tubes narrow distally, commonly upper part of the Eoredlichia–Wutingaspis Zone within the with thickened apertures. Yu’anshan Formation and is equivalent to the strata containing the renowned Chengjiang Biota in Chengjiang County and the Remarks.—Malongitubus closely resembles Dalyia Walcott, Haikou district of Kunming (Luo et al., 1994; Zhang et al., 1919 from the Burgess Shale (Cambrian Series 3, Stage 5) in 2001). Associated fossils from the same interval include overall colony shape and in having nearly parallel-sided thecal arthropods (trilobites, bradoriids, and other arthropods), tubes and inner threads of relatively constant dimensions, herein sponges, cnidarians, anomalocaridids, lobopodians, priapulids, interpreted as a stolon system. The close similarity between the hyolithids, brachiopods, chancelloriids, vetulicolians, and algae two taxa led to the suggestion of possible synonymy (Maletz (a detailed list of fossils is available in the appendices of Hu, and Steiner, 2015). However, Malongitubus differs in having 2005 and Zhao et al., 2012), representing a local assemblage of a greatly variable branching distance, from millimeters to the Chengjiang biota. The lithology of the section and the centimeters. In addition, the presence of round structures at the occurrence of the pterobranch-bearing layer were illustrated branching points of Dalyia (Maletz and Steiner, 2015) allows fi fi previously (Hu, 2005, text- g. 9; Wang et al., 2012, g. 1B). differentiation of the two taxa. On the basis of this difference, The preservation of the probable pterobranchs and other Malongitubus is retained as a separate taxon. Holdfast structures associated fossils was interpreted to be the result of rapid burial and initial (larval) development of both taxa are unknown. The by a distal storm event (Hu, 2005; Zhao et al., 2012). development of fuselli cannot be proven, but is likely. No zooid The specimens of Malongitubus kuangshanensis are com- remains have been preserved. Comparing to Yuknessia from the pressed, often fragmentary, and commonly partly superimposed on Cambrian of British Columbia and Utah, the thecal tubes of one another on the bedding surface. In most cases, the tubes are Malongitubus are completely free and parallel-sided or slightly whitish or pale in color due to intense weathering, with occasional expanding, whereas those of Yuknessia conspicuously widen dark remains of original organic material. The materials were distally. In addition, the presence of repent and erect thecae in prepared using a sharp blade under a binocular microscope. Overall Yuknessia also distinguish it from Malongitubus. The absence images of the specimens were obtained with a Canon Mark II of more differentiated thecal types, such as autothecae, bithecae, Camera with an EF 100 mm f/2.8L IS USM close-up lens under and stolothecae, in M. kuangshanensis indicates that it

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